Spiral-mounted lens disk



y Fattura my 31, 1,9

@mains rinitiso1's JENKINS. or ivasiirrroron, nrsrmc'r 'or srmanfinronnrsn LENS msx.

Applicate ma mam. :n 1925-. smal ire-222A This invention relates to .apparatus fOr the transmission of pictures y radio, in which the picture is vmade -up of lines across an approximately flat' surface, said lines 5 having varying values. The principal object of this invention 1s the design of a simple devicewhich permits of a speed which will cover ,the entire picture surface within the time of'persist'ence .m of Vision, say, one-twelfth or'onesixteenth of a second. 5

lVith these and other objects in View trl-1e invention consists of the novel details of construction and combination of parts vmore 5 -ully hereinafter disclosed and particularly pointed out in the claims.

Referring to the accompanyingdrawmg forming la parto this specification, Figure lis a front View of the lens-carrier disk, and Figure 2 a schematic drawing showing how itis employed. t

In the drawing A is a disk4 with a plurality of spirally arranged holes ,t-lierein, over each of which 'a' lens -is mounted, as B, B', B, etc. -The disk is intended to be rotated' between a spot-source of light L, and a .picture surface or screen M, Vshown edge on.

When the lensB is in front of the light the image of the source strikes thescreen near the top, as shown in full line; when the Nlens B is in position to project, the image will lappear on .the picture surface near ,the

bottom, as indica-ted by the dott-ed line;

whenbtl-ier lenses come intoposition to project, the imaff'es fall" in successively differy ent positions Ilietvseen these extremes.

It will readily be understood that Ythe-'rotation of the disk would causethe lenses to travel across the screen from side to side;

40 while the. location o f the lenses at different radial distances .from .the axis makes the lateral trips of each lens-at di'erentlevelfs,

scanne aperture, said apertures and' lenses lacing so I5y arranged that upon rotation 'of .the l'disk so that the whole picture surface is scanned.

It will also be understood that the disknionnted lenses could just as well'scan a 45 picture surface to lie-sent as they. scan a screen uponA which the picture is' pnt, Witli-v ont departing from tion.

Wliat I claim, is 'l s 1. In combination, Aa stationary pi-ture surface, a stationaryfliglit translating. element, a rotatable disk interposed between the ,spirit Aoaf my inventvsaidsurface and said element, .said disk'bei 'ing provided with a plural-ity of apertures 55 of large dimensions as compared with -a-n elen'ientary .area of the picture surface, -and` asplrerical lens mounted in each aperture for imaging the picturcrsurface and the light;V

translatinif.; element .each :1 -pon .the other 50 i saidapertures and lenses'bei'nm so varranged that upon rotation of the disk the lenses l pass' successively between said surface andV said. element, and-successive images of the light translating 4element; traverse the pic'- 65 tore surface by adjacent paallel paths.

2. In combination, ya stationary light translating clement, and a scanning device .consisting of a rotatable disk interposed. be

tweenlhe said lelement. and ,a plane `vto be j scanned, said dis'kljeing rovided' With-a.

' plurality of apertures ofargedimensions as conpared with -an elementary areaof the plane,vl and a lens mounted in each the lenses 'will pass between said plane and said element 'and successive images of the light translating elementvtraserse `the plane by adjacent parallel paths. f 80, In `testimony whereof I. haveaidxed my signature.

c Trimmers 

